Methods and Arrangements in a Wireless Communication System

1. A method in a user equipment for adjusting signals transmitted in uplink to a network node, based on a feedback value received from the network node, the method comprising transmitting a signal to the network node, receiving a feedback signal from the network node, providing feedback on the transmitted signal, measuring a value of a time delay of the received feedback signal, and adjusting signals transmitted in the uplink based on the value of the time delay of the feedback signal, wherein compensation is made for the measured time delay value of the received feedback signal.

2. The method according to claim 1 , wherein measuring the time delay value of the received feedback signal comprises measuring the difference in time between the moment when the user equipment transmits the uplink signal and the moment when the user equipment receives the feedback signal from the network node.

3. The method according to claim 1 , wherein measuring the value of the time delay of the received feedback signal comprises transmitting a signal in the uplink at a transmission power level associated with a feedback reference value, receiving a feedback value from the network node, providing feedback on the transmitted uplink signal, comparing the feedback reference value with the received feedback value, and if the feedback reference value corresponds to the received feedback value, determining the value of a time delay of the received feedback signal to be the difference in time between the transmission of the uplink signal and the reception of the feedback value.

4. The method according to claim 1 , wherein measuring the value of the time delay of the received feedback signal comprises transmitting a sequence of uplink signals over a control channel at different transmission power levels P=(p 1 ,p 2 , . . . . , P N ) associated with a Transmit Power Control reference sequence TPC_ref=(r 1 , r 2 , . . . , r N ), receiving, from the network node, a sequence of Transmit Power Control commands TPC_set=(TPC 1 , TPC 2 , . . . , TPC Q ) such that Q>N, triggered by the transmitted sequence of uplink signals, calculating a correlation sequence C=(c 0 , c 1 , . . . , C Q-N ) between TPC_ref and TPC_set such that c j = ∑ k = 1 N ⁢ ( a k · TPC j + k ) , and determining the value of the time delay of the received feedback signal to be the index of the largest element of the correlation sequence.

5. The method according to claim 1 , further comprising preventing transmission power adjustment at the user equipment due to any Transmit Power Control commands received from the network node during a period when the user equipment is measuring the time delay value of the received feedback signal.

6. The method according to claim 1 , wherein the measuring of the value of the time delay of the received feedback signal is triggered by any of: a request received from the network node; a handover event; a certain time interval has passed since the previous time delay value was measured; periodically, where the period is predetermined or configured by the network node; the user equipment is set into Open Loop Transmit Diversity mode, wherein the Open Loop Transmit Diversity mode comprises Open Loop Antenna Switching mode or Open Loop Beam Forming mode; signal processing delay for generation of Transmit Power Control commands in the network node is to be changed; active time of the user equipment in Open Loop Transmit Diversity mode is longer than a threshold time; a change of best uplink cell of the user equipment in Open Loop Transmit Diversity mode is made; user equipment speed is above a threshold over a time interval; received signal quality in the uplink and/or in the downlink is worse than a threshold over a time interval.

7. The method according to claim 4 , wherein the transmitting the sequence of uplink signals comprises: transmitting a pre-determined sequence of uplink signals stored in a memory of the user equipment.

8. The method according to claim 4 , wherein the transmitting the sequence of uplink signals comprises: transmitting the sequence of uplink signals configured by the network node.

9. The method according to claim 1 , wherein measuring the value of the time delay of the received feedback signal comprises receiving at least a component of the time delay value of the received feedback signal from the network node.

10. The method according to claim 1 , wherein the user equipment comprises at least two transmission antennas, wherein one transmission antenna of the at least two transmission antennas is alternately used for uplink transmission while the other transmission antenna of the at least two transmission antennas is not used for uplink transmission at the same time, and wherein the user equipment is configured for uplink transmit diversity by Open Loop Antenna Switching, and wherein signals transmitted in the uplink are adjusted by selecting one transmission antenna of the at least two transmission antennas for the uplink transmission.

11. The method according to claim 1 , wherein the measured time delay value is used, when adjusting the signals transmitted in the uplink, for determining if the received feedback signal is related to the uplink signal transmitted on the transmission antenna used for uplink transmission, and wherein signals transmitted in the uplink are adjusted by selecting one transmission antenna of the at least two transmission antennas to be used for uplink transmission, based on the received feedback signal related to the transmission antenna used for uplink transmission.

12. The method according to claim 1 , wherein the user equipment comprises at least two transmission antennas, wherein uplink transmission is performed on the at least two transmission antennas, transmitting the same signal simultaneously by adjusting a phase difference between the signals transmitted by the at least two antennas, such that a beam of the transmitted signal is created in certain direction, and wherein the user equipment is configured for uplink transmit diversity by Open Loop Beam Forming, and wherein signals transmitted in the uplink are adjusted by selecting beam direction or phase difference between the signals transmitted by the at least two transmission antennas.

13. The method according to claim 12 , wherein the measured time delay value is used when adjusting signals transmitted in the uplink, for determining if the received feedback signal is related to the uplink signal transmitted at the currently used phase difference between the signals transmitted by the at least two transmission antennas, and wherein signals transmitted in the uplink are adjusted by selecting beam direction, or phase difference, based on the received feedback signal related to the currently used phase difference between the signals transmitted by the at least two transmission antennas.

14. The method according to claim 1 , wherein the signals transmitted in the uplink are adjusted by adjusting the transmission power of the user equipment according to a Transmit Power Control command, received from the network node, with compensation made for the measured time delay value of the received feedback signal.

15. A user equipment for adjusting signals transmitted in the uplink to a network node, based on a feedback value received from the network node, the user equipment comprising a transmitter, configured to transmit a signal to the network node, a receiver, configured to receive a feedback signal from the network node, providing feedback on the transmitted signal, a processing circuit, configured to measure a value of a time delay of the received feedback signal, and to adjust signals transmitted in the uplink based on the value of the time delay of the feedback signal, wherein compensation is made for the measured time delay value of the received feedback signal.

16. The user equipment according to claim 15 , further comprising a memory configured to store a pre-determined sequence of uplink signals to be transmitted at different transmission power levels associated with a reference sequence.

17. The user equipment according to claim 15 , further comprising a first transmission antenna, and a second transmission antenna, which transmission antennas are configured to operate in Open Loop Transmit Diversity mode, wherein the Open Loop Transmit Diversity mode comprises Open Loop Antenna Switching mode or Open Loop Beam Forming mode.

18. A method in a network node for providing a feedback signal transmitted to a user equipment in response to a signal received from the user equipment for enabling adjustment of signals transmitted in the uplink by the user equipment, based on a feedback signal transmitted by the network node to the user equipment, the method comprises determining that the user equipment is to adjust signals transmitted in the uplink, based on the feedback signal, and transmitting a request to be received by the user equipment, triggering the user equipment to measure a value of time delay of the feedback signal measuring at least a component of the time delay value of the feedback signal transmitted to the user equipment, and providing the measured time delay value of the feedback signal transmitted to the user equipment, or a component thereof, to the user equipment.